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Online since: July 2024
Authors: Davies Oladayo Folorunso, Moses Oladejo Tanimola, Moses Azeez Olayiwola
Journal of Materials in Civil Engineering. 33(2): 1-12
Series: Materials Science and Engineering. 912: 052010 [18] Gowtham, R., Manikanda, P.
IOP Conference Series: Materials Science and Engineering. 1130: 012010
Journal of Material Science.
Journal of Metals, Materials and Minerals. 30(1): 103-108
Series: Materials Science and Engineering. 912: 052010 [18] Gowtham, R., Manikanda, P.
IOP Conference Series: Materials Science and Engineering. 1130: 012010
Journal of Material Science.
Journal of Metals, Materials and Minerals. 30(1): 103-108
Online since: December 2013
Authors: Shu Ming Wen, Chao Lv, Shao Jun Bai
On the other hand, functionalized magnetic nanoparticles (MNPs) with magnetically responsive core and functional shell have been developed, and the core-shell Fe3O4@SiO2 NPs were widely favored in biological and environmental applications among these nanostructured materials [7, 8].
Experimental Section Raw Materials.
Acknowledgements This work was financially supported by Yunnan Province Science Youth Experts Fund (Grant No. 2012FD012) and the authors are grateful to the Analysis and Testing Foundation of Kunming University of Science and Technology for its technical support.
Likodimos, Photoacoustic, EPR and electrical conductivity investigations of three synthetic mineral pigments: hematite, goethite and magnetite, Materials Research Bulletin. 37 (2002) 1051-1061
Pan, Modifying the surface of Fe3O4/SiO2 magnetic nanoparticles with C18/NH2 mixed group to get an efficient sorbent for anionic organic pollutants, Journal of Colloid and Interface Science. 362 (2011) 107-112
Experimental Section Raw Materials.
Acknowledgements This work was financially supported by Yunnan Province Science Youth Experts Fund (Grant No. 2012FD012) and the authors are grateful to the Analysis and Testing Foundation of Kunming University of Science and Technology for its technical support.
Likodimos, Photoacoustic, EPR and electrical conductivity investigations of three synthetic mineral pigments: hematite, goethite and magnetite, Materials Research Bulletin. 37 (2002) 1051-1061
Pan, Modifying the surface of Fe3O4/SiO2 magnetic nanoparticles with C18/NH2 mixed group to get an efficient sorbent for anionic organic pollutants, Journal of Colloid and Interface Science. 362 (2011) 107-112
Online since: July 2021
Authors: Cyron L. Custodio, Blessie A. Basilia, Josefina R. Celorico, Sharyjel R. Cayabyab
Results and Discussion
The fibers and synthesized materials were characterized using ATR-FTIR.
Ma: Materials Today Vol. 7 Issue 5 (2004), pp. 30–40
Tezcaner: Journal of Materials Science and Engineering C Vol. 69 (2016), pp. 1103–1115
BalázsiL: Journ. of Materials Science & Engineering C Vol. 32 (2012), pp. 607–612
Science B: Pol.
Ma: Materials Today Vol. 7 Issue 5 (2004), pp. 30–40
Tezcaner: Journal of Materials Science and Engineering C Vol. 69 (2016), pp. 1103–1115
BalázsiL: Journ. of Materials Science & Engineering C Vol. 32 (2012), pp. 607–612
Science B: Pol.
Online since: February 2012
Authors: Yong Ho Choi, Kwang Hyun Kim
Nanomaterials such as 1-dimensional nanowires and nanotubes and 2-dimensional graphene are the promising materials for novel device developments due to their unique physical and chemical properties.
Introduction The 1-dimensional nanomaterials such as nanowires and nanotubes and 2-dimensional nanomaterials such as graphene are outstanding materials for novel devices due to its small dimensions and high aspect ratios.
Lee, Journal of Physical Chemistry B, Vol. 109 (2005), p. 11095 [11] J.
Davis, Diamond and Related Materials, Vol. 5 (1996), p. 790 [19] J.
Jung, Journal of Vacuum Science & Technology B, Vol. 14 (1996), p. 2072 [20] A.
Introduction The 1-dimensional nanomaterials such as nanowires and nanotubes and 2-dimensional nanomaterials such as graphene are outstanding materials for novel devices due to its small dimensions and high aspect ratios.
Lee, Journal of Physical Chemistry B, Vol. 109 (2005), p. 11095 [11] J.
Davis, Diamond and Related Materials, Vol. 5 (1996), p. 790 [19] J.
Jung, Journal of Vacuum Science & Technology B, Vol. 14 (1996), p. 2072 [20] A.
Online since: March 2026
Authors: Olorunshogo Benjamin Ogundipe, Joshua B. Ajewole, Taye S. Olabamiji, Olarewaju Seun Adesina, Olufemi O. Sanyaolu, Paul Igina, Rilwan A. Adebayo, Bamgbola O. Abolarinwa, Abosede J. Ogunleye
By convening existing literature on this topic, these papers seek to explore traditional approaches and innovative solutions that use advances in technology and materials science to reduce welding distortion.
Mahapatra, “Distortion and residual stresses in thick plate weld joint of austenitic stainless steel: Experiments and analysis,” Journal of Materials Processing Technology, vol. 289, p. 116944, 2021.
Chou, “A new technique for reducing the residual stress induced by welding in type 304 stainless steel,” Journal of Materials Processing Technology, vol. 48, pp. 693–698, 1995.
Bocher, “Effect of impact energy on residual stresses induced by hammer peening of 304L plates,” Journal of Materials Processing Technology, vol. 208, pp. 542–548, 2008.
Na, “Advanced Welding Manufacturing: A Brief Analysis and Review of Challenges and Solutions,” Journal of Manufacturing Science and Engineering, vol. 142, no. 11, p. 110816-1. 2020.
Mahapatra, “Distortion and residual stresses in thick plate weld joint of austenitic stainless steel: Experiments and analysis,” Journal of Materials Processing Technology, vol. 289, p. 116944, 2021.
Chou, “A new technique for reducing the residual stress induced by welding in type 304 stainless steel,” Journal of Materials Processing Technology, vol. 48, pp. 693–698, 1995.
Bocher, “Effect of impact energy on residual stresses induced by hammer peening of 304L plates,” Journal of Materials Processing Technology, vol. 208, pp. 542–548, 2008.
Na, “Advanced Welding Manufacturing: A Brief Analysis and Review of Challenges and Solutions,” Journal of Manufacturing Science and Engineering, vol. 142, no. 11, p. 110816-1. 2020.
Online since: December 2011
Authors: Kun Li, Ru Guo Zhang, Hong Zhang, Kun Li, Wen Wen Zhang, Hua Zheng
Therefore, the wax with good stability can be used for medicine, food, functional materials and other industrial purposes safely.
Material and Method Material.
[2] S N Gayane, A H Hasmik: Journal of Life Sciences, Vol. 4(2010)No. 4, p. 52-57
[10] G.S.Nersisyan and H.A.Hovhannisyan: Journal of Life Science, Vol. 4(2010)No. 4, p. 52-57
[14] B.Rajamony, N.K.Mohd and F.H.Mohd: Journal of Life Science, Vol. 4(2010)No. 4, p. 23-27
Material and Method Material.
[2] S N Gayane, A H Hasmik: Journal of Life Sciences, Vol. 4(2010)No. 4, p. 52-57
[10] G.S.Nersisyan and H.A.Hovhannisyan: Journal of Life Science, Vol. 4(2010)No. 4, p. 52-57
[14] B.Rajamony, N.K.Mohd and F.H.Mohd: Journal of Life Science, Vol. 4(2010)No. 4, p. 23-27
Online since: February 2007
Authors: Jie Cai Han, Xing Hong Zhang, Jin Huai Liu, Yue Feng Sun, Qiang Xu
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Li: Journal of Materials Engineering Vol.10 (1995), pp.23
Jung, et al: Journal of Materials Science Letters Vol.18 (1999), pp.67
Chung: Journal of Materials Science Vol.32 (1997), pp.1703
Hirano: Journal of Materials Science Letters Vol.13 (1994), pp.1219.
Li: Journal of Materials Engineering Vol.10 (1995), pp.23
Jung, et al: Journal of Materials Science Letters Vol.18 (1999), pp.67
Chung: Journal of Materials Science Vol.32 (1997), pp.1703
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Online since: October 2010
Authors: Ji Cheng He, En Gang Wang, Guo Feng Zhan
Electromagnetic processing of Materials (EPM) has been an important topic in materials science for more than 20 years.
Yang: Journal of Materials Research.Vol. 24 (2009), p. 3689 [3] X.P.
Yang: Journal of Materials Research.Vol. 24 (2009), p. 2670 [4] X.P.
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Yang: Journal of Materials Research.Vol. 24 (2009), p. 2670 [4] X.P.
Yang: Journal of Materials Research.Vol. 24 (2009), p. 3174 [5] W.Z.
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Online since: July 2011
Authors: Peng Min Lv, Chun Juan Shi
Now, the coefficients of 15 kinds of common materials calculating the dangerous phase difference are given in table 1.
-181.15 233.6 S45C [20] 1.4314 19.865 -6.91 44.389 -7.4345 63.526 183.2 235.38 1CR-18Ni-9Ti [20] 1.4045 20.826 -7.391 44.011 -7.054 60.334 -174.1 226.29 Note:* represent 650℃ high-temperature materials,# represent 760℃ high-temperature materials Conclusion 1.
Beijing:Science publisher, p. 82-87&93-100, (2007).
(In Chinese) [13] Lei Wang, De-Jun Wang: Journal of Northeastern University (Natural Science).
[20] Luca Susmel, Giovanni Meneghetti, Bruno Atzori: Journal of Engineering Materials and Technology.
-181.15 233.6 S45C [20] 1.4314 19.865 -6.91 44.389 -7.4345 63.526 183.2 235.38 1CR-18Ni-9Ti [20] 1.4045 20.826 -7.391 44.011 -7.054 60.334 -174.1 226.29 Note:* represent 650℃ high-temperature materials,# represent 760℃ high-temperature materials Conclusion 1.
Beijing:Science publisher, p. 82-87&93-100, (2007).
(In Chinese) [13] Lei Wang, De-Jun Wang: Journal of Northeastern University (Natural Science).
[20] Luca Susmel, Giovanni Meneghetti, Bruno Atzori: Journal of Engineering Materials and Technology.
Online since: January 2013
Authors: Xian Zhou Li, Chang Lin Zhong, He Ting Yang, Hang Su
Controlling Factors of the Color of Jade Material—Taking Jilin An’lv Jade as Example
Li Xianzhou 1,a, Zhong Changlin2,b, Yang Heting1,c,SuHang1,d
1 School of Materials Science and Engineering of Jilin University, Changchun of Jilin
2 Jilin Province Geological Library, Changchun of Jilin
1 School of Materials Science and Engineering of Jilin University, Changchun of Jilin
aemail: lxz@jlu.edu.cn, bemail: cl-zhong@163.com, cemail: yht@jlu.edu.cn, demail:sh230302@126.com
Keywords: An’lv Jade; Chemical Constituent; Color
Abstract: Produced in Ji’an of Jilin Province, An’lv jade is named after Lvshui River in that region.
The quality of jade material is evaluated through color, structure, transparency, impurity content and lumpiness [1-2], among which, color is the top priority and its acceptable level sometimes affect the commercial value of the jade.
[2] Wang Shiqi, Yan Xin, Yu Ning, Controlling Factors for Transparency of Hsiuyen Jade, Journal of Gems & Gemmology, 2002, 4(4): 11-15
Mineralogical Feature of An’lv Jade in Ji’an of Jilin Province, Journal of the Changchun Geological Institute, 1991, 21(2): 151-155
[5] Li Xinying Li Xianzhou et al: Research on Serpentine Jade in Jilin Province,2012 International ( ICSSM2012)Conference on Solid State and Materials, Lecture Notes in Information Technology, Vol. 22(2012),p.100-1104.
The quality of jade material is evaluated through color, structure, transparency, impurity content and lumpiness [1-2], among which, color is the top priority and its acceptable level sometimes affect the commercial value of the jade.
[2] Wang Shiqi, Yan Xin, Yu Ning, Controlling Factors for Transparency of Hsiuyen Jade, Journal of Gems & Gemmology, 2002, 4(4): 11-15
Mineralogical Feature of An’lv Jade in Ji’an of Jilin Province, Journal of the Changchun Geological Institute, 1991, 21(2): 151-155
[5] Li Xinying Li Xianzhou et al: Research on Serpentine Jade in Jilin Province,2012 International ( ICSSM2012)Conference on Solid State and Materials, Lecture Notes in Information Technology, Vol. 22(2012),p.100-1104.